[北京部分植被覆盖的时空特征及其对城市化的响应]。

Q2 Environmental Science
Na-Na Shi, Yu Han, Qi Wang, Neng-Wen Xiao, Zhan-Jun Quan
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引用次数: 0

摘要

探索植被覆盖度(FVC)的时空变化及其响应特征对北京城市生态保护规划具有重要意义。及其对城市化的响应特征,对北京城市生态保护和规划具有重要意义。本研究基于长期时间序列植被覆盖数据集,采用Theil-Sen中值法和Mann-Kendall法分析了2000-2020年北京市植被覆盖度变化的时空特征。然后,本研究以城市化指数作为空间城市化的关键指标,利用断面线分析法和全局网格分析法研究了不同城市化梯度下北京植被覆盖度的响应特征。结果表明:① 肺活量变化呈现时空异质性。从 2000 年到 2020 年,北京以高植被覆盖为主,占总面积的 65.22%,主要分布在与军都山、西山、丫髻山一致的生态保护区。植被覆盖率总体呈上升趋势,植被覆盖率低的地区呈下降趋势。FVC增长显著(28.68%),主要分布在生态保护区和以天安门广场为中心的同心圆 10-12 公里范围内。海淀区、朝阳区、丰台区、石景山区和昌平区的城市化指数和人均可支配收入变化率相对较高。2000 年、2010 年和 2020 年的人工用地面积分别为 9.69%、13.64% 和 21.19%,空间集聚明显,空间异质性较强。在北京城市化进程中,人工用地面积的增长达到 11.5%,其中由耕地转化为人工用地的面积占土地利用总转化面积的 53.83%。城市化指数与人均可支配收入呈显著负相关,表明城市化对区域人均可支配收入有负面影响。但随着城市化进程的稳定,这种负相关关系逐渐减弱。虽然中心城区以低森林覆盖率为主,但森林覆盖率呈显著上升趋势,表明森林覆盖率呈正向发展,区域生态质量有所改善,这与山-水-林-田-湖-草-沙系统的治理密切相关。研究结果可为北京市制定植被恢复方案和生态治理措施提供依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Spatial and Temporal Characteristics of Fractional Vegetation Cover and Its Response to Urbanization in Beijing].

Exploration of the spatiotemporal changes in fractional vegetation cover (FVC) and its response characteristics to urbanization is of great significance for urban ecological protection and planning in Beijing. This study analyzed the spatiotemporal characteristics of vegetation cover changes in Beijing from 2000 to 2020 using the Theil-Sen Median and Mann-Kendall methods based on a long-term time series vegetation cover dataset. Then, this study used the urbanization index as a key indicator of spatial urbanization and utilized the transect line and global grid analysis methods to investigate the response characteristics of FVC to different urbanization gradients. The results indicated that: ① FVC changes showed spatial and temporal heterogeneity. From 2000 to 2020, Beijing was predominantly covered by high vegetation, accounting for 65.22% of the total area, which was mainly distributed in ecological conservation areas consistent with the Jundu, Xishan, and Yaji Mountain ranges. The FVC presented an overall positive development trend, with a decreasing trend of areas with low FVC. The increase in FVC was significant (by 28.68%), mainly distributed in ecological conservation areas and within a range of 10-12 km in concentric circles centered around Tiananmen Square. The urbanization index and FVC change rate were relatively high in Haidian District, Chaoyang District, Fengtai District, Shijingshan District, and Changping District. ② The artificial land surface in 2000, 2010, and 2020 was 9.69%, 13.64%, and 21.19%, respectively, with significant spatial agglomeration and strong spatial heterogeneity. During the urbanization process in Beijing, the increase in artificial land surface reached 11.5%, with the conversion from arable land to artificial land surface accounting for 53.83% of the total land use conversion area. ③ There was a significant negative correlation between FVC and the urbanization index, indicating that urbanization had a negative impact on regional FVC. However, as the urbanization process stabilized, this negative correlation tended to gradually weaken. Although the central urban areas were mainly characterized by low FVC, there was a significant increasing trend in the FVC, indicating a positive development in the FVC and an improvement in regional ecological quality, which was closely related to the governance of the mountain-water-forest-field-lake-grass-sand system. The results of the study can provide a basis for the development of vegetation restoration programs and ecological management measures in Beijing.

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环境科学
环境科学 Environmental Science-Environmental Science (all)
CiteScore
4.40
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15329
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